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为建立蓝舌病病毒(Bluetongue virus,BTV)十二种血清型(血清6、8、10、11、13、14、17、18、19、20、22与23型)特异性实时荧光定量RT-PCR(qRT-PCR)检测方法,根据GenBank公布的十二种BTV血清型毒株的基因节段2序列,选择高度保守区域,设计每种BTV血清型的扩增引物与TaqMan探针;以十二种血清型BTV参考毒株的cDNA为模板,进行引物的筛选,建立BTV血清型特异性qRT-PCR检测方法;对检测方法的灵敏度、特异性与重复性进行验证,分别以含有50、100与200个BTV噬斑形成单位(Plaque forming unit,PFU)的模拟BTV阳性血液样本为检测对象,进行检测效果的评估.实验结果表明,建立的BTV血清型特异性qRT-PCR检测方法具有良好的灵敏度和特异性,对不同血清型BTV核酸拷贝数的检出下限在12拷贝/μL(BTV-8)至57拷贝/μL(BTV-14)之间;对我国反刍动物上广泛流行的流行性出血病病毒、中山病病毒与阿卡斑病毒核酸的检测结果均为阴性.反应具有良好的重复性,组内Ct值的变异系数在0.92%至1.96%之间,组间Ct值的变异系数在0.26%至1.62%之间.对模拟BTV阳性血液样本的检测结果显示,BTV血清型特异性qRT-PCR可有效检测含50个PFU(噬斑形成单位)的BTV血液样本.本研究建立的十二种BTV血清型特异性qRT-PCR定型方法具有特异性强、灵敏度高和耗时少等优点,可用于动物感染BTV血清型的诊断. 相似文献
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Twenty five serotypes of Bluetongue virus (BTV) have been identified worldwide. Rapid and reliable methods of virus universal detection are essential for fighting against bluetongue (BT). We have therefore developed and evaluated a pair of primers which can detect various serotypes of BTV by RT-PCR. Analysis of the viral protein 7 (VP7) and the non-structural protein (NS1) gene from different serotypes of BTV by DNAstar showed that the 5'end of the NS1 gene is the most conserved region. The primer pairs (P1 and P2) were designed based on the highly conserved region of NS 1. The novel primers were evaluated by detecting BTV serotypes 1, 3, 5, 8, 10, 11, 21 and 22. The specificity of the primers was estimated by comparing to gene sequences of viruses published in GenBank, and further assessed by detecting BTV serotype 1-12 and Epizootic hemorrhagic disease virus (EHDV) serotype 1-4. The sensitivity and repeatability of PCR with the novel primers were evaluated by successfully detecting the recombinant plasmid pGEM-T121 containing the diagnosed nucleotide sequence. Our results suggest that these unique primers can be used in high throughout and universal detection of the NS1 gene from various BTV serotypes 相似文献
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To identify potential antivirals against BTV, we have developed, optimized and validated three assays presented here. The CPE-based assay was the first assay developed to evaluate whether a compound showed any antiviral efficacy and have been used to screen large compound library. Meanwhile, cytotoxicity of antivirals could also be evaluated using the CPE-based assay. The dose-response assay was designed to determine the range of efficacy for the selected antiviral, i.e. 50% inhibitory concentration (IC50) or effective concentration (EC50), as well as its range of cytotoxicity (CC50). The ToA assay was employed for the initial MoA study to determine the underlying mechanism of the novel antivirals during BTV viral lifecycle or the possible effect on host cellular machinery. These assays are vital for the evaluation of antiviral efficacy in cell culture system, and have been used for our recent researches leading to the identification of a number of novel antivirals against BTV. 相似文献
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Marcela Henao-Tamayo Crystal A. Shanley Deepshikha Verma Andrew Zilavy Margaret C. Stapleton Synthia K. Furney Brendan Podell Ian M. Orme 《PloS one》2015,10(9)
To date, most new vaccines against Mycobacterium tuberculosis, including new recombinant versions of the current BCG vaccine, have usually been screened against the laboratory strains H37Rv or Erdman. In this study we took advantage of our recent work in characterizing an increasingly large panel of newly emerging clinical isolates [from the United States or from the Western Cape region of South Africa], to determine to what extent vaccines would protect against these [mostly high virulence] strains. We show here that both BCG Pasteur and recombinant BCG Aeras-422 [used here as a good example of the new generation BCG vaccines] protected well in both mouse and guinea pig low dose aerosol infection models against the majority of clinical isolates tested. However, Aeras-422 was not effective in a long term survival assay compared to BCG Pasteur. Protection was very strongly expressed against all of the Western Cape strains tested, reinforcing our viewpoint that any attempt at boosting BCG would be very difficult to achieve statistically. This observation is discussed in the context of the growing argument made by others that the failure of a recent vaccine trial disqualifies the further use of animal models to predict vaccine efficacy. This viewpoint is in our opinion completely erroneous, and that it is the fitness of prevalent strains in the trial site area that is the centrally important factor, an issue that is not being addressed by the field. 相似文献
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Viktoria Stab Sandra Nitsche Thomas Niezold Michael Storcksdieck genannt Bonsmann Andrea Wiechers Bettina Tippler Drew Hannaman Christina Ehrhardt Klaus überla Thomas Grunwald Matthias Tenbusch 《PloS one》2013,8(8)
The Respiratory Syncytial Virus (RSV) and Influenza A Virus (IAV) are both two major causative agents of severe respiratory tract infections in humans leading to hospitalization and thousands of deaths each year. In this study, we evaluated the immunogenicity and efficacy of a combinatory DNA vaccine in comparison to the single component vaccines against both diseases in a mouse model. Intramuscular electroporation with plasmids expressing the hemagglutinin (HA) of IAV and the F protein of RSV induced strong humoral immune responses regardless if they were delivered in combination or alone. In consequence, high neutralizing antibody titers were detected, which conferred protection against a lethal challenge with IAV. Furthermore, the viral load in the lungs after a RSV infection could be dramatically reduced in vaccinated mice. Concurrently, substantial amounts of antigen-specific, polyfunctional CD8+ T-cells were measured after vaccination. Interestingly, the cellular response to the hemagglutinin was significantly reduced in the presence of the RSV-F encoding plasmid, but not vice versa. Although these results indicate a suppressive effect of the RSV-F protein, the protective efficacy of the combinatory vaccine was comparable to the efficacy of both single-component vaccines. In conclusion, the novel combinatory vaccine against RSV and IAV may have great potential to reduce the rate of severe respiratory tract infections in humans without increasing the number of necessary vaccinations. 相似文献
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Milton Maciel Jr. Fábia da Silva Pereira Cruz Marli Tenório Cordeiro Márcia Archer da Motta Klécia Marília Soares de Melo Cassemiro Rita de Cássia Carvalho Maia Regina Célia Bressan Queiroz de Figueiredo Ricardo Galler Marcos da Silva Freire Joseph Thomas August Ernesto T. A. Marques Rafael Dhalia 《PLoS neglected tropical diseases》2015,9(4)
Attenuated yellow fever (YF) virus 17D/17DD vaccines are the only available protection from YF infection, which remains a significant source of morbidity and mortality in the tropical areas of the world. The attenuated YF virus vaccine, which is used worldwide, generates both long-lasting neutralizing antibodies and strong T-cell responses. However, on rare occasions, this vaccine has toxic side effects that can be fatal. This study presents the design of two non-viral DNA-based antigen formulations and the characterization of their expression and immunological properties. The two antigen formulations consist of DNA encoding the full-length envelope protein (p/YFE) or the full-length envelope protein fused to the lysosomal-associated membrane protein signal, LAMP-1 (pL/YFE), aimed at diverting antigen processing/presentation through the major histocompatibility complex II precursor compartments. The immune responses triggered by these formulations were evaluated in H2b and H2d backgrounds, corresponding to the C57Bl/6 and BALB/c mice strains, respectively. Both DNA constructs were able to induce very strong T-cell responses of similar magnitude against almost all epitopes that are also generated by the YF 17DD vaccine. The pL/YFE formulation performed best overall. In addition to the T-cell response, it was also able to stimulate high titers of anti-YF neutralizing antibodies comparable to the levels elicited by the 17DD vaccine. More importantly, the pL/YFE vaccine conferred 100% protection against the YF virus in intracerebrally challenged mice. These results indicate that pL/YFE DNA is an excellent vaccine candidate and should be considered for further developmental studies. 相似文献
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Sandeep Kumar Dhanda Pooja Vir Deepak Singla Sudheer Gupta Shailesh Kumar Gajendra P. S. Raghava 《PloS one》2016,11(4)
Development of an effective vaccine against drug-resistant Mycobacterium tuberculosis (Mtb) is crucial for saving millions of premature deaths every year due to tuberculosis. This paper describes a web portal developed for assisting researchers in designing vaccines against emerging Mtb strains using traditional and modern approaches. Firstly, we annotated 59 genomes of Mycobacterium species to understand similarity/dissimilarity between tuberculoid, non-tuberculoid and vaccine strains at genome level. Secondly, antigen-based vaccine candidates have been predicted in each Mtb strain. Thirdly, epitopes-based vaccine candidates were predicted/discovered in above antigen-based vaccine candidates that can stimulate all arms of immune system. Finally, a database of predicted vaccine candidates at epitopes as well at antigen level has been developed for above strains. In order to design vaccine against a newly sequenced genome of Mtb strain, server integrates three modules for identification of strain-, antigen-, epitope-specific vaccine candidates. We observed that 103522 unique peptides (9mers) had the potential to induce an antibody response and/or promiscuous binder to MHC alleles and/or have the capability to stimulate T lymphocytes. In summary, this web-portal will be useful for researchers working on designing vaccines against Mtb including drug-resistant strains. Availability: The database is available freely at http://crdd.osdd.net/raghava/mtbveb/. 相似文献
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蓝舌病毒野毒株及疫苗株S10基因多态性分析研究 总被引:2,自引:0,他引:2
对中国蓝舌病毒1株疫苗株、31株野毒株及1株南非毒株进行测序。结果揭示33株毒株S10基因核苷酸长度均为822bp,S10基因为基因内基因,其核苷酸链的第20~22和59~61位有两个起始密码子,共有终止子在707~709位,预测编码NS3和NS3A两种蛋白;32株中国毒株间核苷酸差异0~107个,同源性86%~100%; NS3蛋白氨基酸差异0~10个,同源性956%~100%。测序毒株与GenBank中9株其它毒株比较,建立的S10基因系统发生树,将蓝舌病毒分为China group和US group两大基因群,两大群的同源性为85%;US group包括美国8株及南非1株毒株;China group包括中国32株及澳大利亚1株毒株;说明蓝舌病毒S10基因分群与毒株的地理区域来源有关。在国内首次进行了全国较大范围内蓝舌病毒分子流行病学调查,揭示了我国蓝舌病毒毒株的遗传多样性。 相似文献
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Dixit Neeraj Kumar Kumar Anup 《International journal of peptide research and therapeutics》2021,27(2):1385-1396
International Journal of Peptide Research and Therapeutics - Dengue is an infectious disease caused by one of the four serotypes of the dengue virus. It is a mosquito borne disease and the female... 相似文献
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Immunization of Pigs with a Particle-Mediated DNA Vaccine to Influenza A Virus Protects against Challenge with Homologous Virus 总被引:16,自引:1,他引:15 
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下载免费PDF全文 Michael D. Macklin Dennis McCabe Martha W. McGregor Veronica Neumann Todd Meyer Robert Callan Virginia S. Hinshaw William F. Swain 《Journal of virology》1998,72(2):1491-1496
Particle-mediated delivery of a DNA expression vector encoding the hemagglutinin (HA) of an H1N1 influenza virus (A/Swine/Indiana/1726/88) to porcine epidermis elicits a humoral immune response and accelerates the clearance of virus in pigs following a homotypic challenge. Mucosal administration of the HA expression plasmid elicits an immune response that is qualitatively different than that elicited by the epidermal vaccination in terms of inhibition of the initial virus infection. In contrast, delivery of a plasmid encoding an influenza virus nucleoprotein from A/PR/8/34 (H1N1) to the epidermis elicits a strong humoral response but no detectable protection in terms of nasal virus shed. The efficacy of the HA DNA vaccine was compared with that of a commercially available inactivated whole-virus vaccine as well as with the level of immunity afforded by previous infection. The HA DNA and inactivated viral vaccines elicited similar protection in that initial infection was not prevented, but subsequent amplification of the infection is limited, resulting in early clearance of the virus. Convalescent animals which recovered from exposure to virulent swine influenza virus were completely resistant to infection when challenged. The porcine influenza A virus system is a relevant preclinical model for humans in terms of both disease and gene transfer to the epidermis and thus provides a basis for advancing the development of DNA-based vaccines. 相似文献
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Jianping Lin Roberto Calcedo Luk H. Vandenberghe Peter Bell Suryanarayan Somanathan James M. Wilson 《Journal of virology》2009,83(24):12738-12750
We created a hybrid adeno-associated virus (AAV) from two related rhesus macaque isolates, called AAVrh32.33, and evaluated it as a vaccine carrier for human immunodeficiency virus type 1 (HIV-1) and type A influenza virus antigens. The goal was to overcome the limitations of vaccines based on other AAVs, which generate dysfunctional T-cell responses and are inhibited by antibodies found in human sera. Injection of a Gag-expressing AAVrh32.33 vector into mice resulted in a high-quality CD8+ T-cell response. The resulting Gag-specific T cells express multiple cytokines at high levels, including interleukin-2, with many having memory phenotypes; a subsequent boost with an adenovirus vector yielded a brisk expansion of Gag-specific T cells. A priming dose of AAVrh32.33 led to high levels of Gag antibodies, which exceed levels found after injection of adenovirus vectors. Importantly, passive transfer of pooled human immunoglobulin into mice does not interfere with the efficacy of AAVrh32.33 expressing nucleoproteins from influenza virus, as measured by protection to a lethal dose of influenza virus, which is consistent with the very low seroprevalence to this virus in humans. Studies of macaques with vectors expressing gp140 from HIV-1 (i.e., with AAVrh32.33 as the prime and simian adenovirus type 24 as the boost) demonstrated results similar to those for mice with high-level and high-quality CD8+ T-cell responses to gp140 and high-titered neutralizing antibodies to homologous HIV-1. The biology of this novel AAV hybrid suggests that it should be a preferred genetic vaccine carrier, capable of generating robust T- and B-cell responses.The initial interest in vectors based on adeno-associated viruses (AAV) was for applications in gene therapy. Most of the initial work was with vectors derived from AAV serotype 2 (AAV2), which is one of the six initial isolates. In the first in vivo studies, several groups showed stable expression of the transgene Escherichia coli β-galactosidase following intramuscular (i.m.) injection of AAV2-LacZ without immune responses to the transgene (23, 44). The apparent tolerance of the host to AAV-encoded antigens to a variety of transgene products has been demonstrated in mice and some large animals (1, 35, 39). Several mechanisms have been proposed to explain the lack of T-cell responses following in vivo gene transfer with AAV, including ignorance (inadequate presentation of antigen), anergy, and suppression (1, 5, 18, 37).As applications of AAV vectors for in vivo gene transfer expanded, it became clear that the apparent immune privilege of AAV transgene products was not absolute. A number of examples emerged in which the host mounted vibrant T-cell responses to AAV-encoded transgene products. Several key parameters appeared to influence immunogenicity of the transgene. For example, Sarukhan et al. suggest that the subcellular localization of the protein influences the magnitude of the ensuing T-cell response after AAV gene transfer (37). The dose and route of administration of the AAV vector also contribute significantly to B- and T-cell responses to the transgene (3, 13). Wang et al. showed that inflammation at the site of AAV administration promotes antigen-specific immune responses to the transgene (47). A consistent observation has been that B-cell responses to AAV-encoded transgenes are much more intense and more consistently generated than CD8+ T-cell responses (8, 46, 51). A number of investigators have begun to explore AAV vectors as genetic vaccines against a variety of infectious and noninfectious diseases, based on the notion that it can be developed to stimulate transgene immune responses (14, 22, 26, 28, 48-50).The discovery of an expanded family of AAV capsids from human and nonhuman primates has provided an opportunity to evaluate the effects of capsid structure on vector performance. Most of this work has focused on the use of novel AAV serotypes for achieving higher levels of transgene expression for applications in gene therapy (7, 12, 36). Xin et al. recently evaluated, in mice, vectors as vaccines for human immunodeficiency virus type 1 (HIV-1) based on the original AAV isolates AAV1 to AAV6 and two novel AAVs we recently discovered, AAV7 and AAV8 (48). They showed significant capsid-dependent effects on T- and B-cell responses to HIV-1 gp160. We recently confirmed these observations and more thoroughly evaluated the quality of the CD8+ T-cell responses (26). AAV vectors of multiple serotypes encoding HIV-1 Gag were injected i.m. into mice, which all showed some level of CD8+ T-cell responses based on tetramer staining and peptide-induced gamma interferon (IFN-γ) expression. However, the quality of AAV-induced, Gag-specific T cells was substantially lower than that obtained with adenoviral vectors, based on several criteria. A majority of the tetramer-positive (Tet+) T cells were nonresponsive to antigen, and those that did respond to antigen produced low levels of IFN-γ and no interleukin-2 (IL-2). Very few memory T cells were generated, and animals primed with AAV vectors were not responsive to a boost with an adenoviral vector. However, all AAV serotypes studied did generate very high levels of antibodies to the Gag transgene product.A final issue to consider in the use of AAV as a genetic vaccine for HIV-1 is the presence of neutralizing antibodies (NAbs) to the vector due to prior AAV infections. We recently conducted an extensive screening of human populations from several continents and found high prevalence and high titers of NAbs to AAV1 and AAV2 and moderate levels of NAbs to AAV7 and -8 (4). In vivo gene transfer experiments indicate that AAV NAbs will likely impinge on vector efficacy (9, 33, 38).This study describes the creation of a novel AAV from rhesus macaque isolates, called AAVrh32.33, and its characterization as a genetic vaccine for HIV-1. AAVrh32.33 has properties unlike those of any others we have studied. We showed that vectors based on this novel capsid elicit strong CD8+ T-cell responses to reporter transgene products that are dependent on CD4+ T-cell help and dependent on signaling through CD40L and CD28 (L. E. Mays and J. M. Wilson, submitted for publication). Important to the use of this vector in the clinic is a very low incidence of NAbs to it in human populations. This study describes the development of vectors based on AAVrh32.33 as genetic vaccines. 相似文献
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为研制适合我国使用的HIV疫苗,选择具有代表意义的中国流行株HIV CN54(B′/C)病毒gag、pol、nef等基因的合成基因syngpnef,插入到自行构建的能在病毒筛选过程中将标记基因去除掉的双标记基因痘苗病毒载体pVI75的KpnI酶切位点,构建成转移质粒pVI75-syngpnef,与我国的天坛株痘苗病毒共转染鸡胚成纤维细胞,通过蓝白斑筛选得到的重组病毒疫苗株DNA。经PCR鉴定标记基因已被删除并有目的基因的整合,Western blot可检测到目的基因的融合表达。此重组病毒疫苗株有望成为HIV/AIDS候选疫苗。 相似文献
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Hui Zhao Tao Jiang Xi-Zhen Zhou Yong-Qiang Deng Xiao-Feng Li Shui-Ping Chen Shun-Ya Zhu Xi Zhou E-De Qin Cheng-Feng Qin 《PloS one》2014,9(1)
The worldwide expansion of four serotypes of dengue virus (DENV) poses great risk to global public health. Several vaccine candidates are under development. However, none is yet available for humans. In the present study, a novel strategy to produce tetravalent DENV vaccine based on envelope protein domain III (EDIII) was proposed. Tandem EDIIIs of two serotypes (type 1–2 and type 3–4) of DENV connected by a Gly-Ser linker ((Gly4Ser)3) were expressed in E. coli, respectively. Then, the two bivalent recombinant EDIIIs were equally mixed to form the tetravalent vaccine candidate MixBiEDIII, and used to immunize BALB/c mice. The results showed that specific IgG and neutralizing antibodies against all four serotypes of DENV were successfully induced in the MixBiEDIII employing Freund adjuvant immunized mice. Furthermore, in the suckling mouse model, sera from mice immunized with MixBiEDIII provided significant protection against four serotypes of DENV challenge. Our data demonstrated that MixBiEDIII, as a novel form of subunit vaccine candidates, might have the potential to be further developed as a tetravalent dengue vaccine in the near future. 相似文献
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Cristina C. P. Celma Mark Boyce Piet A. van Rijn Michael Eschbaumer Kerstin Wernike Bernd Hoffmann Martin Beer Andy Haegeman Kris De Clercq Polly Roy 《Journal of virology》2013,87(17):9856-9864
Since 1998, 9 of the 26 serotypes of bluetongue virus (BTV) have spread throughout Europe, and serotype 8 has suddenly emerged in northern Europe, causing considerable economic losses, direct (mortality and morbidity) but also indirect, due to restriction in animal movements. Therefore, many new types of vaccines, particularly subunit vaccines, with improved safety and efficacy for a broad range of BTV serotypes are currently being developed by different laboratories. Here we exploited a reverse genetics-based replication-deficient BTV serotype 1 (BTV-1) (disabled infectious single cycle [DISC]) strain to generate a series of DISC vaccine strains. Cattle and sheep were vaccinated with these viruses either singly or in cocktail form as a multivalent vaccine candidate. All vaccinated animals were seroconverted and developed neutralizing antibody responses to their respective serotypes. After challenge with the virulent strains at 21 days postvaccination, vaccinated animals showed neither any clinical reaction nor viremia. Further, there was no interference with protection with a multivalent preparation of six distinct DISC viruses. These data indicate that a very-rapid-response vaccine could be developed based on which serotypes are circulating in the population at the time of an outbreak. 相似文献
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Annemarijn C. Prins-van Ginkel Guy A. M. Berbers Lucienne H. Grundeken Irina Tcherniaeva Jelle I. Wittenberns Karin Elberse Liesbeth Mollema Hester E. de Melker Mirjam J. Knol 《PloS one》2016,11(1)